IoT Security

Major: Security of Information and Communication Systems
Code of subject: 7.125.01.O.001
Credits: 4.00
Department: Information Technology Security
Lecturer: Professor Olena Nyemkova
Semester: 1 семестр
Mode of study: денна
Learning outcomes: 1. Possession of sufficient knowledge in the field of IoT, namely: to know the basic fundamental concepts of IoT, key trends in IoT development, as well as to be able to critically analyze the security of IoT systems. 2. Knowledge of modern achievements of innovative IoT technology in the field of information technology information and communication systems, information security systems, cybersecurity and management, including the principles of construction and basic structural elements of IoT systems, application in various sectors of modern society. 3. Knowledge of mathematical methods of optimization in order to obtain the best performance characteristics of IoT tools and systems: decision trees, Markov and semi-Markov models, Petri nets, checking the functionality and temporal features of IoT systems, MiniNet modeling environment. 4. Ability to combine theory and practice, as well as to make decisions and develop strategies to address information security issues taking into account public, state and industrial interests, namely: to be able to analyze and develop business models of service provision and organization of services for security systems IoT, be able to apply in practice the knowledge gained to manage projects for the development and implementation of security IoT systems. 5. Choose information security tools for the components of IoT information and communication systems, namely: be able to develop the architecture of IoT systems, make decisions on the choice of protocols, technologies and architectural components of the system, be able to form security requirements for IoT systems and develop specifications. 6. Ability to communicate, including oral and written communication in Ukrainian and a foreign language, namely: to work in a team on a project to develop an IoT system, to be able to present and defend the selected IoT system architecture and technical solutions to ensure its security.
Required prior and related subjects: Security of distributed systems and cloud technologies
Summary of the subject: The concept of Internet of Things (IoT) systems. Problems of implementation of security and reliability of IoT. General principles of operation of the Arduino board and the Proteus software package. Three-level modeling of IoT systems. Research of reliability of IoT systems. Interaction modeling in IoT systems. Models of functional and information security of IoT systems. Models of IoT devices and technologies for data processing and transmission. Intelligent methods and approaches for management and training of IoT systems. Models of information interaction of elements of IoT systems.
Assessment methods and criteria: The following methods are used to diagnose knowledge: oral individual interview at each laboratory lesson, individual defense of laboratory reports; credit test at the end of the semester. The maximum score in points: 100, in particular: Execution and defense of laboratory works: 50, exam control: 50.
Recommended books: 1. Sklyar VV, Yatskiv VV, Yatskiv NG Dependability and Security of IoT: Practicum / Kharchenko В.С. and Sklyar VV (Eds.) - Ministry of Education and Science of Ukraine, National Aerospace University “KhAI”, Ternopil National Economic University, 2019. - 98 p. 2. Standard ISO / IEC 30141 “Internet of Things Reference Architecture (IoT-RA)” 3. Internet of Things for Industry and Human Application. In Volumes 1-3. Volume 2. Modeling and Development / V. S. Kharchenko (ed.) - Ministry of Education and Science of Ukraine, National Aerospace University KhAI, 2019. - 550 p. 4. A.V. Parkhomenko, OM Gladkova, YI Zalyubovsky, Engineering of embedded systems: Textbook. Zaporozhye: Wild Field, 2017. 5. Arduino development environment. [Electronic resource]. - Access mode: http://www.arduino.cc/en/Main/Software 6. Sommer U. Programming of microcontroller boards Arduino / Freeduino.- SPb .: BHV - Petersburg, 2012.- 256 p.